Post on 05-Jun-2018
Commercial Requirements for the 2009 IECC and 90.1-2007
Workshop 2
1
Introductions
Stephen Rivera
Project email:
energycodeworkshop@shawgrp.com
Code officials
Name
Municipality
Status of Commercial Codes
2
Overview
Project funded by the Missouri Department of Natural Resources (MDNR) with American Recovery and Reinvestment Act of 2009 (ARRA) funding.
2 Locations:
• St. Louis
• Springfield
Objective of the Workshop: Work with municipalities and counties across the state to identify opportunities to adopt or enhance compliance with the 2009 International Energy Conservation Code (IECC) at a local level.
Overview
The “Local Energy Code Action Kit” developed by the Building Codes Assistance Project (BCAP) with ARRA funding provides municipalities and counties in Missouri with information and resources to support the adoption of the model energy code 2009 IECC. A copy of the report is included with your materials.
The Building Energy Codes Program (BECP) works with the ICC, ASHRAE, IESNA, American Institute of Architects (AIA), the building industry, and state and local officials to develop and promote more stringent and easy-to-understand building energy codes and to assess potential code barriers to new energy-efficient technologies.
What are the topics for today?
1. Highlights of the Commercial portion of the 2009 IECC and of ASHRAE 90.1-2007
2. Overview of the requirements of Commercial envelope, mechanical and lighting provisions of the 2009 IECC
3. Process
Agenda
Topic Approx. Time
Introduction, Project Background, Workshop Overview 15 minutes
2009 IECC and 90.1 2007-Highlights 15 minutes
Overview of the commercial mechanical requirements 30 minutes
Break 10 minutes
Overview of the commercial lighting requirements 30 minutes
Commercial Resources - building data collection
checklist and COMcheck 30 minutes
Summary/Questions 10 minutes
Total Time 2 Hr 20 Min
Some Important Points
Overall
• Focused on commercial
• Discussion-based
• Forum for ideas and practices
What can you expect?
• Code citations in [ ]
• Printed slides
Before we get started…
• Cell phones
Topic 1
Highlights of the Commercial portion of the 2009 IECC and of ASHRAE 90.1 2007
Comparison of 2009 IECC and ASHRAE 90.1-2007
2009 IECC • 2009 IECC developed by the International Code Council (ICC) • New version every three years with more stringent requirements ASHRAE • ASHRAE 90.1-2007 developed by American Society for Heating,
Refrigerating and Air-Conditioning Engineers (ASHRAE) • ASHRAE 90.1 is the referenced standard in IECC • Compliance with ASHRAE 90.1-2007 results in 4% more energy savings
than ASHRAE 90.1-2004
Building Energy Codes
ASHRAE Standard 90.1
International Energy Conservation Code
State and Locally Adopted Codes
Model Codes & Standards
International Energy Conservation Code (IECC)
Type
Residential & commercial buildings; mandatory, enforceable language
Model Energy Code
Title Applicability Common
Versions
2003 IECC 2006 IECC 2009 IECC
90.1-2004 90.1-2007
Energy Standard All buildings except residential 3 stories or less
ASHRAE Standard 90.1 Energy Efficient Design of New Buildings Except Low-Rise Residential Buildings
Commercial Provisions Contained in Chapter 5
• IECC
• ASHRAE 90.1-2007
Section 501.2 “Application” requires 90.1 to be used in its entirety (Envelope, Lighting, Mechanical) if used as an alternate compliance path
IECC or ASHRAE 90.1
Both IECC & ASHRAE 90.1 apply, ASHRAE 90.1 likely used
IECC applies
Both IECC & ASHRAE 90.1 apply, either used to comply
14
Must the Project Comply with the
IECC?
Comply with the
Envelope
Requirements
Comply with the
Mechanical/SWH
Requirements
Comply with the
Power & Lighting
Requirements
Section 502 90.1 Section 5 Sections 503 and
504 90.1 Section 6 Section 505 90.1 Section 9
Document
Compliance with
the IECC
Plan Review
Inspection
2009 IECC Compliance
Commercial State Energy Code Status (*)
(*) as of November 1, 2011, DOE – Building Energy Codes Program
≥IECC 2009
≥IECC 2006
≤IECC 2003
No Statewide Code
Topic 2
Overview of the requirements of Commercial envelope, lighting and
mechanical provisions of the 2009 IECC
16
Must the Project
Comply with the
IECC?
Comply with the
Envelope
Requirements
Comply with the
Mechanical/SWH
Requirements
Comply with the
Lighting
Requirements
Section 502 90.1 Section 5 Sections 503 and
504 90.1 Section 6 Section 505 90.1 Section 9
Document
Compliance with
the IECC
Plan Review
Inspection
17
Introduction to the Energy Code Compliance Process
18
Section 503 Building Mechanical Systems
Simplified to Include Only Four Sections:
• What Provisions of the Code Apply (503.1)
• Mandatory Provisions (503.2)
• Simple HVAC Systems and Equipment (503.3)
• Complex HVAC Systems and Equipment (503.4)
What Provision of the Code Apply? (503.1)
Mandatory Provisions – Section 503.2 PLUS • Section 503.3 (Simple Systems) or • Section 503.4 (Complex Systems)
Simple Versus Complex Systems
• Simple systems
• Unitary or packaged HVAC equipment
• Serves one zone and controlled by a single thermostat
Section 503.3 Simple Systems
Buildings served by unitary or packaged HVAC each serving 1 zone controlled by 1 thermostat.
Two-pipe heating systems serving multiple zones are included if no cooling system is installed [Tables 503.2.3(1) through 503.2.3(5)]
Simple Versus Complex Systems
• Complex systems
• All equipment not covered under Section 503.3 Simple Systems
Section 503.4 Complex Systems
All buildings served by HVAC systems not covered under 503.3
22
Mandatory Provisions Applicable to ALL Mechanical Systems (503.2)
• HVAC Load Calculations
• Equipment and System Sizing
• HVAC Equipment Performance Requirements
• HVAC System Controls
• Ventilation
HVAC Load Calculations (503.2.1)
Heating and cooling load sizing calculations required
• ASHRAE/ACCA Standard 183
• Other approved computation procedures – defined in Chapter 3
– Exterior design conditions
» Specified by ASHRAE
– Interior design conditions
» Specified by Section 302 of the IECC
» ≤ 72°F for heating load
» ≥ 75°F for cooling load
24
Equipment and System Sizing (503.2.2)
• Output capacity SHALL NOT exceed sizing –
• Select the system which serves the greater load, heating or cooling
HVAC Performance (Minimum Efficiency) Requirements (503.2.3)
• Applies to all equipment used in heating and cooling of buildings
• Must comply with all listed efficiencies
26
Table 503.2.3(2)
Table 503.2.3(3)
28
System Controls (503.2.4)
One temperature and humidity (when applicable) controller per zone
29
System Controls
Heat pump systems
Heat pump thermostat required
Demand Controlled Ventilation (503.2.5.1)
DCV must be provided for each zone with spaces > 500 ft² and the average occupant load > 40 people/1000 ft² of floor area where the HVAC system has:
• An air-side economizer,
• Automatic modulating control of the outdoor air damper,
• A design outdoor airflow > 3,000 cfm
31
Demand Controlled Ventilation (503.2.5.1) - Exceptions
• Systems with energy recovery per 503.2.6
• Multiple zone systems without direct digital control of single zones communicating with central control panel
• Systems with design outdoor airflow < 1,200 cfm
• Spaces where supply airflow rate minus any makeup or outgoing transfer air requirement < 1,200 cfm
32
Energy Recovery Ventilation Systems (503.2.6)
• Applies to individual fan systems with Design supply air capacity ≥ 5,000 cfm
• Minimum outside air supply of ≥ 70% of design supply air quantity
• Exhaust air recovery efficiency must be ≥ 50%
Duct and Plenum Insulation and Sealing (503.2.7)
Required for supply and return ducts and plenums
• Insulating ducts and plenums:
– Located in unconditioned space - R5
– Located outside the building - R8
FLUID
NOMINAL PIPE DIAMETER
≤ 1.5” ≥ 1.5”
Steam 1 ½ 3
Hot water 1 ½ 2
Chilled water, brine or
refrigerant
1 ½ 1 ½
Minimum Pipe Insulation
(thickness in inches)
34
Piping Insulation (503.2.8)
All piping serving heating or cooling system must be insulated in accordance with Table 503.2.8
35
Exceptions to Table 503.2.8
• Internal piping, factory installed and tested
• Factory installed within room fan-coils and unit ventilators
• Tested and rated to AHRI 440 (except sampling and variation provisions in Section 6.5) and 840
• Piping for fluid in temperature range
36
HVAC System
Completion (503.2.9)
• Air System Balancing
• Hydronic System Balancing
• Equipment Capacity and Required Maintenance
Design and Control (503.2.10)
• HVAC systems with total fan system power > 5 hp to meet 503.2.10.1 and 503.2.10.2
• Allowable Fan Floor Horsepower
• Motor Nameplate Horsepower
37
Motor Nameplate Horsepower
• Selected fan motor to be no larger than first available motor size greater than bhp
• Fan bhp on design documents
Exceptions:
• Fans < 6 bhp, where first available motor larger than bhp has nameplate rating within 50% of bhp, next larger nameplate motor size may be selected
• Fans ≥ 6 bhp, where first available motor larger than bhp has nameplate rating within 30% of bhp, next larger nameplate motor size may be selected
*bhp = brake horsepower
38
Heating Outside a Building (503.2.11)
• To be radiant systems
• Controlled by an occupancy sensing device or timer switch
• So system is automatically de-energized when no occupants are present
39
Simple HVAC Systems and Equipment (503.3)
Unitary or packaged, single zone controlled by a single thermostat in the zone
served. Includes:
Simple Systems
• Unitary packaged cooling system
• Split system cooling
• Packaged terminal A/C
• Heat pump cooling
• Unitary packaged heating
• Split system heating
• Packaged terminal heat pump
• Fuel-fired furnace
• Electrical resistance heating
• Two-pipe heating systems w/o cooling
• Economizers
40
CLIMATE ZONES ECONOMIZER
REQUIREMENT
1A, 1B, 2A, 7, 8 No requirement
2B, 3A, 3B, 3C, 4A,
4B, 4C, 5A, 5B, 5C,
6A, 6B
Economizers on
cooling systems
≥ 54,000 Btu/ha
a The total capacity of all systems without economizers shall not exceed
480,000 Btu/h per building, or 20 percent of its air economizer capacity,
whichever is greater
Table 503.3.1(1)
Economizers (503.3.1)
CLIMATE
ZONES
COOLING EQUIPMENT PERFORMANCE
IMPROVEMENT (EER OR IPLV)
2B 10% Efficiency Improvement
3B 15% Efficiency Improvement
4B 20% Efficiency Improvement
Table 503.3.1(2)
41
Economizers (503.3.1)
Trade-off high cooling efficiency for economizer
42
Complex HVAC Systems and Equipment (503.4)
Complex Systems
• Packaged VAV reheat
• Built-up VAV reheat
• Built-up single-fan, dual-duct VAV
• Built-up or packaged dual-fan, dual-duct VAV
• Four-pipe fan coil system with central plant
• Hydronic heat pump with central plant
• Any other multiple-zone system
• Hydronic space heating system
• Economizers
This section applies to all HVAC equipment and systems not included in Section 503.3
This section applies to all HVAC equipment and systems not included in Section 503.3
43
Economizers (503.4.1)
Air side economizer requirements and equipment performance exceptions in Tables 503.3.1(1) and 503.3.1(2)
Water side economizer requirements
Capable of providing 100% of the cooling system load at 50o F dry bulb/ 45oF wet bulb
44
Variable Air Volume Fan Control (503.4.2)
Individual fans with motors ≥ 10hp
• Driven by a mechanical or electrical variable speed drive
OR
• Have controls or devices to result in fan motor demand ≤ 30% of their design wattage at 50% of design airflow when static pressure set point = 1/3 of the total design static pressure
45
Hydronic System Controls (503.4.3)
Limit reheat/recool of fluids
• Multiple-packaged boiler systems designed to deliver conditioned water/steam into common distribution system
• Automatic controls capable of sequencing operation of the boilers
46
Hydronic System Controls (503.4.3)
Limit reheat/recool of fluids
• Single boilers > 500,000 Btu/h input design capacity
• Multi-staged or modulating burner required
47
Hydronic Systems (503.4.3)
• 3-Pipe System
• Can’t use a common return
• 2-Pipe Changeover System
• Dead band between changeover ≥ 15ºF outside temperature
48
Hydronic Water Loop Heat Pump Systems (503.4.3.3)
Temperature dead band of at least 20ºF (503.4.3.3.1)
• Exception: where system loop temp optimization controller is installed and can determine the most efficient operating temp based on realtime conditions of demand and capacity
• Heat rejection equipment in Climate Zones 3 and 4 (503.4.3.3.2)
49
Hydronic Water Loop Heat Pump Systems (503.4.3.3) – cont’d
• Heat rejection equipment in Climate Zones 5 - 8
• Open- or closed-circuit cooling tower used
• Must have a separate heat exchanger to isolate cooling tower from heat pump loop
• Heat loss controlled by shutting down circulation pump on cooling tower loop and providing an automatic valve to stop flow of fluid
• Two position valve (503.4.3.3.3)
• Required on each hydronic heat pump with total pump system power > 10 hp
50
Part Load Control (503.4.3.4)
• System ≥ 300,000 Btu/h
• Automatic Resets for Supply Water Temperature by 25% of Design Supply-to-Return Temperature Differences or
• Reduce System Pump Flow by 50% of Design Flow Using
• Multiple Staged Pumps
• Adjustable Speed Drives
• Control Valves with Modulate or Step Down Capabilities
51
Pump Isolation (503.4.3.5)
• Multiple chiller chilled water plants
• Capability to reduce flow automatically when chiller is shut down
• Chillers piped in series considered one chiller
52
Heat Rejection Equipment Fan Speed Control (503.4.4)
Each fan powered by a motor ≥ 7.5 hp to have capability to operate that fan at 2/3 of full speed or less
• Have controls to automatically change the fan speed to control the leaving fluid temperature or condensing temperature/pressure of the heat rejection device
Exception
• Factory-installed heat rejection devices within HVAC equipment tested and rated in accordance with Tables 503.2.3(6) and 503.2.3(7)
53
Multiple Zone System Requirements (503.4.5)
• VAV Systems must be designed and capable of being controlled to reduce the primary air supply to each zone before reheat, recool, or mixing take place
• Options
– 30% of the maximum supply air to each zone
– <300 cfm where the maximum flow rate is <10% of total fan system supply airflow rate
– Minimum ventilation requirements from Chapter 4 of the IMC
54
Variable Air Volume System or Zone Exceptions
• Zones with special pressurization or cross-contamination requirements
• Where 75% of reheat energy comes from site-recovered or site-solar energy source
• Zones with special humidity requirements
• Zones with ≤ 300 cfm peak supply and flow rate is < 10% of total fan system supply airflow rate
55
Single Duct VAV Systems, Terminal Devices (503.4.5.1)
Single duct VAV systems to use terminal devices capable of reducing the supply of primary supply air before reheating or recooling takes place
56
Supply-Air Temperature Reset Controls (503.4.5.4)
• Multiple zone HVAC systems to have controls to automatically reset supply-air temperature in response to building loads or outdoor air temperature
• Controls to be capable of resetting supply air temperature at least 25% of difference between design supply-air temperature and design room air temperature
57
Heat Recovery for Service Hot Water Heating (503.4.6)
Most effective where water heater loads are large and well distributed throughout the day
• Typical applications: hotels, dorms, prisons, hospitals
• Condenser heat recovery required for heating/reheating of SWH provided:
• Facility operates 24 hours/day
CW In
HW In
Storage Tank
Condenser
Evaporator
Heat Recovery
Heat Pump
Cooling Tower
Water Loop
To Chiller Condenser or
Water-Loop Heat Pump
System
CW In
HW In
Storage Tank
Condenser
Evaporator
Heat Recovery
Heat Pump
Cooling Tower
Water Loop
To Chiller Condenser or
Water-Loop Heat Pump
System
58
Section 504 Service Water Heating
• Service water-heating equipment performance efficiency (504.2)
• Table 504.2 Minimum Performance of Water-Heating Equipment
• Water Heater Types Covered
• Electric Storage
• Gas and Oil Storage
• Instantaneous Water Heaters – Gas and Oil
59
Pipe Insulation (504.5)
Noncirculating system insulation requirements
• First eight feet of outlet piping on systems with no integral heat traps
• 1/2 inch of insulation required
Circulating systems
• 1 inch of insulation
60
Hot Water System Controls (504.6)
• Ability to turn off circulating hot water pumps and heat trace tape when the system is not in operation
• Automatically or manually
61
Pool Requirements (504.7)
Pool heaters (504.7.1)
• Readily accessible on-off switch
• Natural gas or LPG fired pool heaters will not have continuously burning pilot lights
Time switches (504.7.2)
• Automatic controls required to operate pool heaters and pumps on a preset schedule
62
Pool Covers (504.7.3)
• Heated pools required to have a pool cover
• Pool cover must be vapor retardant
• Pools heated to over 90oF
– Minimum R-12 insulation
Break
10 minutes
We’re going to start topic 2 again at ____
Topic 3
Overview of the requirements of Commercial envelope, lighting and
mechanical provisions of the 2009 IECC
64
Must the Project
Comply with the
IECC?
Comply with the
Envelope
Requirements
Comply with the
Mechanical/SWH
Requirements
Comply with the
Power & Lighting
Requirements
Section 502 90.1 Section 5 Sections 503 and
504 90.1 Section 6
IECC
Section 505
90.1-2007
Section 9
Document
Compliance with
the IECC
Plan Review
Inspection
IECC
Section 506
Building Performance
Method
65
The IECC Code Compliance Process
66
Commercial Lighting Requirements in 2009 IECC
Commercial provisions contained in Chapter 5…with reference to ASHRAE 90.1-2007
Covers lighting controls and power density for interior and exterior
Exception: Lighting within dwelling units
Major changes in the 2009 version
Daylight zone control
New exterior lighting zones
67
When do the Lighting and Power Requirements Apply?
• Original Installed Lighting System in a New Building, Addition, or Tenant Build-out
• Existing Lighting System that is Altered
• Change in Occupancy that Increases Energy
Lamp Wattage Efficacy
> 40 watts 60 lumens/watt
15-40 watts 50 lumens/watt
< 15 watts 40 lumens/watt
68
High-Efficacy Lamps
Defined in the 2009 IECC as:
Compact fluorescent lamps, T-8 or smaller diameter linear fluorescent lamps, or lamps with a minimum efficacy based on lamp wattage
69
What’s Covered Under Electrical Power and Lighting Systems Requirements?
• Mandatory Interior Lighting requirements
• Required Controls
• Wattage/Efficiency Limits
• Interior Lighting Power Allowances (watts/ft2)
Intent: Allow occupants to
control unneeded lighting!
70
Interior Lighting Control (505.2): Basic Control
Independent Lighting Control required for each space surrounded by floor-to-ceiling partitions
• Must be located in the space served, - or -
• Switched from a remote location
• Must have indicator that identifies the lights served and their status (off or on)
Intent: Allow occupants to
moderate light levels to save
energy!
71
Interior Lighting Control: Light Reduction
• Light Reduction Controls must allow the occupant to reduce connected lighting
• By at least 50%
• In a reasonably uniform illumination pattern
• Note: Alternate Standard ASHRAE/IESNA 90.1-2007 does not require Light Reduction Control
72
S S
Dimmer Switch D
Alternating Luminaries Dimming
S S
Alternating lamps
Light Reduction Control Options
• Controlling all lamps or luminaires
• Dual switching of alternate rows of luminaires, alternate luminaires or lamps
• Switching middle lamp luminaires independently from the outer lamps
• Each luminaire or each lamp
73
Interior Lighting Control: Light Reduction Exemptions
Light Reduction Control Not required for the following:
• Areas with only one luminaire
• Areas controlled by occupancy sensor
• Corridors, storerooms, restrooms or public lobbies
• Sleeping units
• Spaces with <0.6 w/ft2
Intent: Eliminate after
hours lighting waste!
74
Interior Lighting Control: Automatic Shutoff
Automatic lighting shutoff control device required in all buildings larger than 5,000 ft2
Building Defined:
• “Any structure used or intended for supporting or sheltering any use or occupancy”
• Building area surrounded by exterior walls and fire walls
Exempted spaces
• Sleeping units
• Lighting for patient care
• When an automatic shutoff would endanger occupant safety or security
Courtesy Britt-Makela Group
75
Interior Lighting Control: Automatic Shutoff Options
Automatic Lighting Shutoff Compliance Options:
1. Control lights on a scheduled basis (automatic time switch)
• Time-of-day controller
• Controls ≤ 25,000 ft2 and not more than one floor, or
2. Occupant sensor
• Turn lights off within 30 minutes of occupant leaving the space
3. Signal from another control or alarm that indicates the area is unoccupied
Office
Occupancy Sensor
Conference
Room
Restrooms
Lobby
Connect to
Lighting in Lobby
Open Bay Office
Connect to
Lighting in Open
Bay Office
Automatic Lighting Control
110’
50’
76
Interior Lighting Control: Automatic Shutoff Override
• Readily accessible • Within view of the lights or area controlled • Manually operated • ≤ 2 hour override • Controls an area ≤ 5,000 ft2
Exemptions • Can be over 2 hour override in malls and arcades, auditoriums, single-
tenant retail space, industrial facilities and arenas when using captive key override
• Override in malls and arcades, auditoriums, single-tenant retail space, industrial facilities and arenas can cover up to 20,000 ft2
77
Daylight Zone Definition –Under Skylights
• The area under skylights whose horizontal dimension, in each direction, is equal to the skylight dimension plus the smaller of:
– The floor-to-ceiling height, or
– The distance to a ceiling height opaque partition, or
– One-half the distance to adjacent skylights or windows
78
Daylight Zone Definition – Adjacent to Vertical Fenestration
• The daylight zone depth is assumed to be 15 feet into the space or to the nearest ceiling height opaque partition, whichever is less
• The daylight zone width is assumed to be:
– the width of the window plus 2 feet on each side, or
– the window width plus distance to opaque partitions, or
– the window width plus one-half the distance to adjacent skylight or vertical fenestration, whichever is least.
79
Daylight Zone Control
Daylight zones
• Must have individual control of the lights independent of general area lighting
• Contiguous daylight zones adjacent to vertical fenestration
• Can be controlled by a single controlling device if the zone doesn’t include areas facing more than two adjacent cardinal orientations (i.e., north, east, south, west)
• Daylight zones under skylights > 15 ft from the perimeter must be controlled separately from daylight zones adjacent to vertical fenestration
80
Daylight Zone Control
Exception
• Daylight spaces 1) enclosed by walls or ceiling height partitions and 2) containing two or fewer light fixtures
• not required to have a separate switch for general area lighting
• Note: required controls may be manual or automatic
Standard Room Suite
$$
$$
$$
$$
$$$$
$$
$$$$
$$
Intent: Allow
occupant to
turn off lights at
exit point!
81
Interior Lighting Control: Sleeping Unit Lighting Control
• Applies to hotels, motels, boarding houses, or similar
• Master switch required at each room or main room entry
• Must control all permanently wired luminaries or switched receptacles
• Exceptions: bathrooms
Intent: Eliminate the use of
magnetic ballasts driving single
lamps!
82
Tandem Wiring (505.3)
• Tandem Wiring for all Odd Numbered Lamp Configurations
• Exceptions:
• Where electronic high frequency ballasts are used
• Luminaries on emergency circuits
• Luminaries with no available pair in the same area
83
Exit Signs (505.4)
Exit Signs
Internally illuminated exit signs shall not exceed 5 watts per side
Intent: Eliminate waste from
sloppy lighting design and
application!
84
Interior Lighting Power Limits (505.5)
Connected Interior Lighting Power must not exceed Interior Lighting Power Allowance 1. Calculate Interior Lighting Power
Allowance Building Area type allowance Additional allowances 2. Calculate proposed connected
lighting power Wattage calculation “rules” Exempted lighting 3. Compare values: proposed wattage
must be less than or equal to allowed wattage
85
Table 505.5.2
Interior Lighting Power Allowances
Building Area Type Note: Alternate Standard ASHRAE/IESNA 90.1-2007 provides whole building and space-by-space options
86
Interior Lighting Power Allowance Calculation
First, choose an appropriate “Building Area Type” from the allowance table (505.5.2).
• “Building Area” includes all spaces that are associated with that business or function type. For example a space with:
• Corridors,
• Restrooms,
• A lobby, and
• Office space
…would be considered an Office Building Area Type
Then...multiply the lighting power density (W/ft2) by the building square footage to get allowed watts for compliance
87
Table 505.5.2
Office - Example
A 200,000 ft2 office building that contains corridor, restrooms, break rooms and a lobby is given 1.0 W/ft2 for the entire building
Office: 200,000 ft2
1.0 W/ft2 = 200,000 W
88
Interior Lighting Power Allowance for Multiple Occupancy Building
How is an allowance determined if the building has more than one Building Area Type?
Example – A building contains the following area types
Museum: 40,000 ft2
Retail: 5,000 ft2
Cafeteria: 10,000 ft2
Use the more specific building area type where more than one area type exists in the building
Sum the individual (lighting power density X area square footage) values for Total Power Allowance
89
Table 505.5.2
Multiple Occupancy Building - Example
Museum: 40,000 ft2
at 1.1 W/ft2 = 44,000 W
Cafeteria:10,000 ft2
at 1.4 W/ft2 = 14,000 W
Retail: 5,000 ft2
at 1.5 W/ft2 = 7,500 W
Total watts allowed = 65,500 W
Intent: Allow
flexibility in design
for critical retail
applications!
90
Additional Retail Lighting Power Allowance (Table 505.5.2 – Footnotes)
Additional Interior Lighting Power Allowance = 1000 watts + (Retail Area 1
x 0.6 W/ft2) + (Retail Area 2 x 0.6 W/ft2) +(Retail Area 3 x 1.4 W/ft2) +
(Retail Area 4 x 2.5 W/ft2),
Where:
Retail Area 1 = the floor area for all products not listed in Retail
Area 2, 3 or 4.
Retail Area 2 = the floor area used for the sale of vehicles,
sporting goods and small electronics.
Retail Area 3 = the floor area used for the sale of furniture,
clothing, cosmetics and artwork.
Retail Area 4 = the floor area used for the sale of jewelry, crystal,
and china.
91
Proposed Lighting Power Calculation
Sum the wattage of all proposed connected lighting power
This must include all lighting that is part of the design for the space including:
• Overhead lighting
• Task lighting
• Decorative lighting
Note: Wattage must be calculated based on actual power draw…not just nominal lamp rating
92
Proposed Lighting Calculation: Rules
Lighting wattage must be documented in accordance with Section 505.5.1
Screw lamp holders: maximum labeled wattage of the luminary
Low voltage lighting: transformer wattage
Line voltage track:
1. specified wattage with minimum of 30 W/linear ft OR
2. wattage limit of system’s circuit breaker OR
3. wattage limit of other permanent current limiting devices
Other: manufacturer’s rated wattage of lamp and associated ballast
93
Exemptions to Proposed Lighting Power Calculation
• Connected power for following not included in calculations: – Professional sports arena playing field
– Sleeping unit lighting
– Emergency lighting automatically off during normal building operation
– Lighting in spaces specifically designed for use by occupants with special lighting needs including visual impairment and other medical and age related issues
– Lighting in interior spaces specifically designated as a registered interior historic landmark
– Casino gaming areas
• Lighting equipment used for the following exempt if in addition to general lighting and controlled by an independent control device – Task lighting for medical and dental procedures
– Display lighting for exhibits in galleries, museums and monuments
94
What if My Proposed Design Does Not Meet Code?
• Check calculations and design • Appropriate area type allowances used? • Actual lighting equipment wattages used? …and design • Reasonable illuminance levels provided? • Efficient light sources used? • Use alternate Standard 90.1-2007* • Use total Building Performance Method
*Section 501.2 Application requires 90.1 to be used in its entirety (Envelope, Lighting, Mechanical) if used as an alternate compliance path
95
Exterior Lighting Control Requirements (505.2.4)
• For dusk-to-dawn lighting: astronomical time switch or photosensor
• For all other: astronomical time switch OR photosensor + time switch
• All time switches must have 10 hour battery backup
96
Exterior Efficiency Requirement (505.6.1)
Building grounds lighting luminaires over 100 watts must have source efficacy of at least 60 lumens per watt
97
Exterior Lighting Power Limits (505.6.2)
Connected Exterior Lighting Power must not exceed Exterior Lighting Power Allowance • Calculate exterior Lighting Power Allowance
– Lighting power densities by exterior function and by applicable lighting zone
• Calculate proposed connected lighting power – Wattage calculation “rules”
– Exempted lighting
• Compare values: proposed wattage must be less than or equal to allowed wattage
98
Exterior Lighting Power Limits (505.6.2)
What areas are covered under exterior lighting allowances? • Tradable surfaces Common exterior lighted needs that can be traded for other needs. For example, wattage allowed for parking lot lighting can be “traded” and used for canopy lighting.
• Nontradable surfaces Less common exterior lighted needs that cannot be traded for other needs. These applications have more specific security or task illuminance needs.
99
Tradable Surfaces
• Uncovered parking lots and areas
• Walkways (under and over 10 feet wide)
• Stairways
• Pedestrian tunnels
• Main building entrances
• Other doors
100
Nontradable Surfaces
• Building facades
• Automated teller machines and night depositories
• Entrances and gatehouse inspection stations at guarded facilities
• Loading areas for law enforcement, fire, ambulance and other emergency vehicles
Lighting Zone Description
1 Developed areas of national parks, state parks,
forest land, and rural areas
2 Areas predominantly consisting of residential
zoning, neighborhood business districts, light
industrial with limited nighttime use and residential
mixed use areas
3 All other areas
4 High-activity commercial districts in major
metropolitan areas as designated by the local land
use planning authority
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Exterior Lighting Zones [Table 505.6.2(1)]
102
Exterior Lighting Zones
Zone 1 Zone 2 Zone 3 Zone 4
Base Site
Allowance
500 W 600 W 750 W 1300 W Tradable
Surfaces Uncovered Parking Areas
Parking areas
and drives
0.04 W/ft 2
0.06 W/ft 2
0.10 W/ft 2
0.13 W/ft 2
Building Grounds
Walkways less
than 10 feet wide
0.7
W/linear foot
0.7
W/linear foot
0.8
W/linear foot
1.0
W/linear foot
Walkways 10
feet wide or greater
0.14 W/ft 2
0.14 W/ft 2
0.16 W/ft 2
0.2 W/ft 2
Plaza areas
Special Feature Areas
Stairways 0.75 W/ft 2
1.0 W/ft 2
1.0 W/ft 2
1.0 W/ft 2
Pedestrian Tunnels 0.15 W/ft
2
0.15 W/ft 2
0.2 W/ft 2
0.3 W/ft 2
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Exterior Lighting Zones con’t
Zone 1 Zone 2 Zone 3 Zone 4
Tradable
Surfaces Building Entrances and Exits
Main entries
20 W/linear
foot of
door width
20 W/linear
foot of
door width
30 W/linear
foot of
door width
30 W/linear
foot of
door width
Other doors
20 W/linear
foot of
door width
20 W/linear
foot of
door width
20 W/linear
foot of
door width
20 W/linear
foot of
door width
Entry Canopies 0.25 W/ft 2
0.25 W/ft 2
0.4 W/ft 2
0.4 W/ft 2
Sales Canopies
Free-standing
and
attached 0.6 W/ft 2
0.6 W/ft 2
0.8 W/ft 2
1.0 W/ft 2
Outdoor Sales
Open areas
(including
vehicle sales lots) 0.25 W/ft
20.25 W/ft
20.5 W/ft
20.7 W/ft
2
Street frontage for
vehicle sales lots in
addition to
“ open
area” allowance No allowance
10 W/linear foot
10 W/linear foot
30 W/linear foot
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Non-
Tradable
Surfaces
Building
Facades
No allowance
0.1 W/ft2 for
each
illuminated
wall or
surface or 2.5
W/linear foot
for each
illuminated
wall or
surface length
0.15 W/ft2 for
each
illuminated
wall or
surface or
3.75 W/linear
foot for each
illuminated
wall or
surface length
0.2 W/ft2 for
each
illuminated
wall or
surface or 5.0
W/linear foot
for each
illuminated
wall or
surface
length
Automated
teller machines
and night
depositories
270 W per
location
plus 90 W
per
additional
ATM per
location
270 W per
location plus
90 W per
additional
ATM per
location
270 W per
location plus
90 W per
additional
ATM per
location
270 W per
location plus
90 W per
additional
ATM per
location
Entrances and
gatehouse
inspection
stations at
guarded fac.
0.75 W/ft2
of covered
and
uncovered
area
0.75 W/ft2 of
covered and
uncovered
area
0.75 W/ft2 of
covered and
uncovered
area
0.75 W/ft2 of
covered and
uncovered
area
Loading areas
for law
enforcement,
fire, ambulance
and other
emergency
service vehicles
0.5 W/ft2 of
covered and
uncovered
area
0.5 W/ft2 of
covered and
uncovered
area
0.5 W/ft2 of
covered and
uncovered
area
0.5 W/ft2 of
covered and
uncovered
area
Drive-up
windows/doors
400 W per
drive- through
400 W per drive-through
400 W per drive-through
400 W per
drive- through
Parking near
24-hour retail entrances
800 W per main entry
800 W per main entry
800 W per main entry
800 W per main entry
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Exemptions from Exterior Calculation (505.6.2)
• The following lighting does not need to be included in the proposed lighting calculation:
• Specialized signal, directional, and marker lighting associated with transportation
• Advertising signage or directional signage
• Lighting integral to equipment or instrumentation and installed by its manufacturer
• Lighting for theatrical purposes, including performance, stage, film production, and video production
106
What if My Proposed Exterior Lighting Does Not Meet Code?
• Check calculations and design
• Appropriate surface allowances used?
• Actual lighting equipment wattages used?
…and design
• Reasonable illuminance levels provided?
• Efficient light sources used?
• Use alternate Standard 90.1-2007*
• Use total Building Performance Method
*Section 501.2 Application requires 90.1 to be used in its entirety (Envelope, Lighting, Mechanical) if used as an alternate compliance path
Intent: Occupant
understanding of actual
energy use can promote
effective energy use!
107
Electrical Energy Consumption Mandatory Requirement (505.7)
Separate metering required for each dwelling unit
Promoting Awareness of 2009 IECC
General Resources
Top 10 Reasons for Building Energy Codes, U.S. Dept. of Energy
Frequently-Asked Questions, U.S. Dept. of Energy
108
Topic 3
Commercial Resources, Building Data Collection Checklist and COMcheck
Building data collection checklists
• To “check on” compliance, the first step is to have a proper checklist. BECP offers evaluation checklists for both residential and commercial buildings, complete with instructions to help evaluators.
• The checklists offer weighted scoring in order to focus on the most important code requirements and help states produce accurate metrics.
BECP Tool: Download inspection checklists and corresponding instructions at: www.energycodes.gov/arra/compliance_evaluation.stm
Building data collection checklists
1. Commercial Building Data Collection Checklist ANSI/ASHRAE/IESNA Standard 90.1-2007 2. Commercial Building Data Collection Checklist 2009 International Energy Conservation Code
Software
No-cost, easy-to-use software that will demonstrate compliance
Software
No-cost, easy-to-use software that will demonstrate compliance. www.energycodes.gov/software.stm
Web-Based Tools Desktop Software Tools
Windows version or
Mac version
Mandatory
Provisions
(required for most
compliance options)
Building System Compliance Options
Energy Code
Compliance
Prescriptive
Option
Total Building
Performance
Trade Off
Option
Envelope
Mechanical
Lighting
SWH
HVAC
Commercial Compliance
Info You’ll Need
• Basic information about the builder and project • Area take-offs for exterior walls, fenestration, roof/ceiling, basement
walls, floors, etc. • Insulation R-values, fenestration U-factors, etc. • Lighting fixture details • Heating and cooling system details • Service water heating details
Main Steps
• Select the Appropriate Code • Enter Project Information • Enter Building Components • Enter Interior/Exterior Lighting • Enter Mechanical Equipment • View/Print the Compliance Report(s) • Save the Data File and the Report
Appropriate Code
• Energy code applicable to your state/ jurisdiction (Code Menu)
• Status of State Codes • Default • Preferences
Navigation Bar
• Edit Menu • General • File Options • Beyond Code Advisor • Version Update Check • Project • Code/location • Envelope
• Applicant – Project Details
• Reports
– Signatures – Email Reports
Project Information
• Project location • Project type • Project details for report (optional) • Title/Site/Permit • Owner/Agent • Designer/Contractor • Notes
Project Screen
Building Use Types
• Vary by code • Internal loads • Lighting power allowances
Building Components
• Only components that separate conditioned space from unconditioned space/outside air
• Only use applicable buttons • Can group “like” components • Use of “other” assembly type • Gross area
Foundations
• Basement button – use if – basement is conditioned – basement walls are insulated
• Floor button – use if – separates conditioned from unconditioned space (includes slab-on-
grade floor)
Envelope Screen
• Entries can change based on code and/or location selected • Assembly types • Int. Wall button • Projection Factor • Orientation
Envelope Results
Interior Lighting
• Mandatory requirements • Interior lighting power requirements • Complies if total connected power is less than interior lighting power
allowance (entire building or partial building)
Allowed Wattage
Proposed Wattage
≤
Interior Lighting
• LPDs based on Building Use on Project screen • Add fixtures • Identify exemptions and allowances (if applicable)
Exemptions and Allowances
Options menu
Based on code selected
Exemptions
• Power for exempt fixtures is omitted from the proposed wattage
Allowances
• Allowed wattage for building increased by allowable amount
Interior Lighting Results
Exterior Lighting
• Based on code selected • Mandatory requirements • Exemptions
Ext. Ltg. Power
Allowance
Total Connected
Power
<
Exterior Lighting
• Pay attention to Quantity and Units Tradable • Common applications where unused power can be traded where needed Non-Tradable • Less common applications that cannot be traded
Exterior Lighting Results
Mechanical Equipment
Works differently than Envelope and Lighting Enter characteristics of: • HVAC system • Plant • Water heating Generates a customized list of requirements
Mechanical Report
Mandatory Requirements
• Must be met by all buildings • Included in compliance report(s) • Viewable in software Help
Help
Screen Operations
Status Bar
Compliance Bar
Screen Operations
Compliance Bar Status Bar Colors - Red
Screen Operations
Compliance Bar Status Bar Colors - Green
Screen Operations
Compliance Bar Status Bar Colors - Blue
Screen Operations
Compliance Bar Status Bar Colors Right Mouse Button “Context” Menu
Files
Data (File Save) Report (File Save Report) Exchange
Additional COMcheck Training Opportunities
• COMcheck 101 • COMcheck 201 • Case studies
www.energycodes.gov